Add to ORKGThe main detector solenoid and associated magnets can have an important impact on the CLIC luminosity. These effects are discussed for different solenoid designs. In particular, the luminosity loss due to incoherent synchrotron radiation in the experiment solenoid and QD0 overlap is evaluated. The impact of the AntiDID (Anti- Detector integrated Dipole) on luminosity and of compensated techniques on beam optic distortion are also discussed
International audienceThe Compact Linear Collider (CLIC) could provide $e^+e^−$ collisions in two de...
Emittance preservation in the beam delivery system (BDS) is one of the major challenges in the Compa...
This paper presents calculations of detector solenoid effects on disrupted primary beam in the ILC 1...
The emission of Synchrotron Radiation in the CLIC BDS is one of the major limitations of the machine...
In order to obtain the necessary luminosity with a reasonable amount of beam power, the Compact Line...
The magnet system for the CLIC Detector concepts is composed of the central solenoid in combination ...
In the CLIC SiD experiment design baseline, with the machine parameter L* set to 3.5 m, the\nfinal f...
The detector solenoid of CLIC causes a range of aberrations on the beam at the interaction point, pa...
In this paper, we discuss the optics effects of the realistic detector solenoid field on beam size a...
We examine the emittance dilution due to synchrotron radiation in the fringing fields at the end of ...
This paper presents analysis of detector solenoid effects on primary disrupted beam in the ILC 14 mr...
The PEP-II experimental detector includes a strong 1.5 T solenoid field in the interaction region (I...
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
A study on the sensitivity of the CLIC Damping Ring lattice to different sources of misalignment is ...
Future linear colliders may require a nonzero crossing angle between the two beams at the interactio...
International audienceThe Compact Linear Collider (CLIC) could provide $e^+e^−$ collisions in two de...
Emittance preservation in the beam delivery system (BDS) is one of the major challenges in the Compa...
This paper presents calculations of detector solenoid effects on disrupted primary beam in the ILC 1...
The emission of Synchrotron Radiation in the CLIC BDS is one of the major limitations of the machine...
In order to obtain the necessary luminosity with a reasonable amount of beam power, the Compact Line...
The magnet system for the CLIC Detector concepts is composed of the central solenoid in combination ...
In the CLIC SiD experiment design baseline, with the machine parameter L* set to 3.5 m, the\nfinal f...
The detector solenoid of CLIC causes a range of aberrations on the beam at the interaction point, pa...
In this paper, we discuss the optics effects of the realistic detector solenoid field on beam size a...
We examine the emittance dilution due to synchrotron radiation in the fringing fields at the end of ...
This paper presents analysis of detector solenoid effects on primary disrupted beam in the ILC 14 mr...
The PEP-II experimental detector includes a strong 1.5 T solenoid field in the interaction region (I...
In order to achieve high luminosity, the Compact Linear Collider (CLIC) has to be operated in the hi...
A study on the sensitivity of the CLIC Damping Ring lattice to different sources of misalignment is ...
Future linear colliders may require a nonzero crossing angle between the two beams at the interactio...
International audienceThe Compact Linear Collider (CLIC) could provide $e^+e^−$ collisions in two de...
Emittance preservation in the beam delivery system (BDS) is one of the major challenges in the Compa...
This paper presents calculations of detector solenoid effects on disrupted primary beam in the ILC 1...
